CN222612574U - Glass fiber yarn transferring and winding tool - Google Patents

Abstract

The present application provides a glass fiber transfer winding tool, including: a winding drum, which is rotatably connected in a pair of support frames, and the winding drum is connected to a rotating mechanism, a movable ring is provided on the sliding sleeve of the winding drum, and a retaining ring is fixedly connected to one end of the winding drum; a guiding assembly is arranged at intervals on one side of the winding drum, including a pair of fixed plates, a pair of limiting columns are arranged at intervals in the pair of fixed plates, the fixed plates are connected to the movable end of a linear mechanism, the linear mechanism is arranged at intervals on one side of the winding drum, and the moving direction of the movable end is parallel to the axial direction of the winding drum. The tool can wind glass fiber on a longer winding drum, and the winding length is controlled by the movable ring, so that multiple glass fiber rolls are formed on the winding drum, avoiding the problem of winding directly from one end of the winding wheel to the other end, resulting in the problem of too large winding span.

Description

Glass fiber yarn transferring and winding tool

Technical Field

The utility model belongs to the technical field of braid production, and particularly relates to a glass fiber yarn transferring and winding tool.

Background

The glass fiber braiding belt is formed by braiding a plurality of glass fiber filaments with good high-temperature resistance and heat preservation effects. The raw material of the glass fiber yarn is usually wound on a winding roll with a larger diameter, and when the glass fiber braiding belt is actually braided, the glass fiber yarn on the winding roll needs to be transferred and wound on a winding wheel with a small diameter so as to control the conveying speed of the glass fiber yarn during braiding. However, the length of the existing winding wheel is usually smaller, the length of the wound glass fiber is smaller, when the glass fiber is transferred from the winding roll, the winding wheel needs to be replaced frequently, if the winding wheel with a small diameter and a larger length is directly used, the span from one end of the winding wheel to the other end of the winding wheel is too large when the glass fiber is wound on the winding wheel, the paying-off speed during subsequent weaving is influenced, the tension of the glass fiber during paying-off is influenced, the situation of twisting is possibly caused, and the improvement is needed.

Disclosure of utility model

In order to solve the above-mentioned prior art defect, the present application provides a glass fiber yarn transferring and winding tool, which can wind glass fiber yarn on a longer winding reel, and control winding length through a movable ring, and form a plurality of glass fiber yarn coils on the winding reel, so as to avoid the problem of overlarge winding span caused by directly winding from one end of a winding wheel to the other end.

In order to achieve the above object, the present utility model adopts the following technique:

a glass fiber strand transfer cord winding tool comprising:

the winding reel is rotationally connected in the pair of supporting frames, is connected with a rotating mechanism, is sleeved with a movable ring in a sliding manner, and is fixedly connected with a baffle ring at one end;

The guide assembly is arranged at one side of the winding reel at intervals and comprises a pair of fixed plates, a pair of limit posts are arranged in the fixed plates at intervals, the fixed plates are connected with the movable end of a linear mechanism, the linear mechanism is arranged at one side of the winding reel at intervals, and the moving direction of the movable end of the linear mechanism is parallel to the axial direction of the winding reel.

Further, the movable end of the linear mechanism is connected with a first push plate, and the first push plate is positioned in the moving range of the movable ring and used for pushing the movable ring to move towards the other end of the winding reel.

Further, the straight line mechanism is arranged below the winding reel, the tops of the two ends of the movable end of the straight line mechanism are respectively provided with a vertical plate, the movable ring is arranged between the two vertical plates, the guide assembly is fixed on one of the vertical plates, the first push plate is connected with one of the vertical plates, the other vertical plate is connected with a second push plate, and the second push plate and the first push plate are symmetrically arranged relative to the movable ring.

Further, the rotating mechanism comprises a motor, a gear ring and a gear, the inner sides of the pair of supporting frames are respectively connected with a pair of connecting rings in a rotating mode, two ends of the winding reel are respectively connected in the pair of connecting rings, the gear ring is sleeved on one connecting ring, the motor is fixed on one supporting frame, an output shaft of the motor is connected with the gear, and the gear is meshed with the gear ring.

Further, guide rods are respectively arranged on the vertical plates in a penetrating mode, two ends of each guide rod are respectively connected with the inner sides of the pair of supporting frames, and the length direction of each guide rod is parallel to the axial direction of the winding reel.

The utility model has the beneficial effects that:

1. The glass fiber yarn winding device has the advantages that the glass fiber yarn can be wound on a longer winding reel, the winding length is controlled through the movable ring, a plurality of glass fiber yarn windings are formed on the winding reel, and the problem that the winding span is overlarge due to the fact that the glass fiber yarn is directly wound from one end of the winding wheel to the other end of the winding wheel is avoided.

2. When the movable end of the linear mechanism drives the guide assembly to move towards the other end of the winding reel, the movable ring can be pushed to move through the first push plate at the same time, and the movable ring does not need to be manually pushed.

Drawings

Fig. 1 is a perspective view of the overall structure of a tool according to an embodiment of the present application.

Fig. 2 is an enlarged view of the portion a in fig. 1.

Fig. 3 is a perspective view of the overall structure of the tool according to another embodiment of the application.

Fig. 4 is an enlarged view of the portion B in fig. 3.

Fig. 5 is a top view of a tool according to an embodiment of the application.

The device comprises a winding reel-1, a supporting frame-2, a fixed plate-3, a linear mechanism-4, a motor-5, a movable ring-101, a baffle ring-102, a connecting ring-103, a limit post-301, a movable end-401, a first push plate-402, a vertical plate-403, a second push plate-404, a guide rod-405, a gear ring-501 and a gear-502.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

The embodiment of the application provides a glass fiber yarn transferring and winding tool, which is shown in fig. 1-5 and comprises a winding reel 1, a guiding component, a linear mechanism 4 and the like.

Specifically, the winding reel 1 is rotatably connected in the pair of supporting frames 2, the winding reel 1 is connected with a rotating mechanism, a movable ring 101 is sleeved on the winding reel 1 in a sliding manner, one end of the winding reel 1 is fixedly connected with a baffle ring 102, a guide assembly is arranged on one side of the winding reel 1 at intervals, the guide assembly comprises a pair of fixing plates 3, a pair of limit posts 301 are arranged in the pair of fixing plates 3 at intervals, a linear mechanism 4 is arranged on one side of the winding reel 1 at intervals, the fixing plates 3 are connected with a movable end 401 of the linear mechanism 4, and the moving direction of the movable end 401 of the linear mechanism 4 is parallel to the axial direction of the winding reel 1.

In actual use, the glass fiber yarn to be wound passes through the space between the pair of limit posts 301, then the glass fiber yarn is fixed at one end of the fixing plate 3 on the winding reel 1, specifically, a fixing buckle can be arranged on the winding reel 1 for fixing the glass fiber yarn, or the glass fiber yarn can be directly fastened on the winding reel 1, then the movable ring 101 is moved to a preset distance, the distance between the movable ring 101 and the baffle ring 102 is matched with the width of the coil to be wound, then the rotating mechanism is controlled to rotate, meanwhile, the linear mechanism 4 is controlled to drive the guide component to reciprocate in the horizontal direction between the movable ring 101 and the baffle ring 102 to complete winding of one coil, then the movable ring 101 is pushed to move towards the other end of the winding reel 1 by a preset distance, the linear mechanism 4 is controlled to drive the guide component to reciprocate in the horizontal direction between the movable ring 101 and the coil wound before, winding of a plurality of coils is completed, and then the winding of the coils can be completed on the winding reel 1 by repeating the steps, and the winding efficiency of the glass fiber yarn can be improved without frequent replacement.

Specifically, referring to fig. 1 and 5, the rotating mechanism includes a motor 5, a gear ring 501 and a gear 502, wherein the inner sides of a pair of support frames 2 are respectively connected with a pair of connecting rings 103 in a rotating manner, two ends of a winding reel 1 are respectively connected in the pair of connecting rings 103, the gear ring 501 is sleeved on one of the connecting rings 103, the motor 5 is fixed on one of the support frames 2, an output shaft thereof is connected with the gear 502, and the gear 502 is meshed with the gear ring 501. The gear 502 drives the gear ring 501 and the winding reel 1 to rotate, and the rotating speed of the gear ring 501 is smaller than that of the gear 502, so that the rotating speed of the winding reel 1 can be conveniently adjusted in a small range.

Preferably, referring to fig. 3 and 5, the movable end 401 of the linear mechanism 4 is connected to a first push plate 402, and the first push plate 402 is located in the moving range of the movable ring 101 and is used for pushing the movable ring 101 to move towards the other end of the spool 1. When the movable end 401 of the linear mechanism 4 drives the guiding component to move towards the other end of the winding reel 1, the movable ring 101 can be pushed to move through the first push plate 402 at the same time, and the movable ring 101 does not need to be manually pushed.

Specifically, referring to fig. 3, the linear mechanism 4 is disposed below the spool 1, the tops of two ends of the movable end 401 of the linear mechanism 4 are respectively provided with a riser 403, the movable ring 101 is disposed between the two risers 403, the guide assembly is fixed on one of the risers 403, the first push plate 402 is connected with one of the risers 403, the other riser 403 is connected with a second push plate 404, and the second push plate 404 and the first push plate 402 are symmetrically disposed with respect to the movable ring 101. When the movable end 401 of the linear mechanism 4 drives the guiding component to move towards the other end of the winding reel 1, the first push plate 402 and the second push plate 404 can respectively push the movable ring 101 from the two ends of the movable ring 101, so that the stability of pushing the movable ring 101 can be improved. Specifically, the vertical plate 403 is provided with guide rods 405 in a penetrating manner, two ends of each guide rod 405 are respectively connected with the inner sides of the pair of support frames 2, and the length direction of each guide rod 405 is parallel to the axial direction of the winding reel 1. For improving the stability of the axial movement of the riser 403 along the mat reel.

The above examples are only examples of the present application and are not intended to limit the present application.

Claims (5)

1. A glass fiber strand transfer cord winder comprising:

The winding reel (1) is rotationally connected in the pair of supporting frames (2), the winding reel (1) is connected with a rotating mechanism, a movable ring (101) is sleeved on the winding reel (1) in a sliding way, and one end of the winding reel (1) is fixedly connected with a baffle ring (102);

the guide assembly is arranged on one side of the winding reel (1) at intervals and comprises a pair of fixed plates (3), a pair of limit posts (301) are arranged in the pair of fixed plates (3) at intervals, the fixed plates (3) are connected with movable ends (401) of a linear mechanism (4), the linear mechanism (4) is arranged on one side of the winding reel (1) at intervals, and the moving direction of the movable ends (401) of the linear mechanism is parallel to the axial direction of the winding reel (1).

2. A glass fiber yarn transfer winding tool according to claim 1, wherein the movable end (401) of the linear mechanism (4) is connected with a first push plate (402), and the first push plate (402) is located in the moving range of the movable ring (101) and is used for pushing the movable ring (101) to move towards the other end of the winding drum (1).

3. A glass fiber yarn transferring and winding tool according to claim 2, wherein the linear mechanism (4) is arranged below the winding reel (1), two vertical plates (403) are arranged at the tops of two ends of the movable end (401) of the linear mechanism (4), the movable ring (101) is arranged between the two vertical plates (403), the guiding assembly is fixed on one of the vertical plates (403), the first push plate (402) is connected with one of the vertical plates (403), the other vertical plate (403) is connected with the second push plate (404), and the second push plate (404) and the first push plate (402) are symmetrically arranged relative to the movable ring (101).

4. The glass fiber yarn transferring and winding tool according to claim 1, wherein the rotating mechanism comprises a motor (5), a gear ring (501) and a gear (502), the inner sides of the pair of supporting frames (2) are respectively connected with a pair of connecting rings (103) in a rotating mode, two ends of the winding reel (1) are respectively connected in the pair of connecting rings (103), the gear ring (501) is sleeved on one of the connecting rings (103), the motor (5) is fixed on one supporting frame (2), an output shaft of the motor is connected with the gear (502), and the gear (502) is meshed with the gear ring (501).

5. A glass fiber yarn transferring and winding tool according to claim 3, wherein the vertical plates (403) are respectively provided with guide rods (405) in a penetrating way, both ends of the guide rods (405) are respectively connected with the inner sides of the pair of supporting frames (2), and the length direction of the guide rods (405) is parallel to the axial direction of the winding reel (1).